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1 Classical Mechanics PHY(C)-102 M. Sc. 1st Year (Sem. 1st) Newtonian mechanics of one and many particle systems; conservation laws, constraints, their classification; D' Alembert's principle, Lagrange's equations; dissipative forces generalized coordinates and momenta; integrals of motion; symmetries of space and time and their connection with conservation laws; invariance under Galilian transformation. I Rotating frames; intertial forces; terrestrial applications of coriolisforce.central force; definition and characteristics; two body problem; closure and stability of circular orbits; general analysis of orbits; Kepler's laws and equations; artificial satellites; Rutherford scattering. II Principle of least action; derivation of equations of motion; variation and end points; Hamilton's principle and characteristic functions; Hamilton- Jacobi equation. V Canonical transformation; generating functions, properties of Poisson bracket, angular momentum Poisson brackets; small oscillations; normal modes and coordinates.
2 Electronic Devices PHY(C)-104 M. Sc. 1st Year (Sem. 1st) Bipolar junction Transistor(BJT) Transistor operating modes, Transistor action, Transistor biasing configurations and characteristics, Transistor ratings, The Ebers-Moll model, Field Effect Transistors: Junction Field Effect Transistor(JFET), Metal Oxide Semiconductor Field Effect Transistor (MOSFET) FET Parameters. I Types of Integrated Circuits, Analog and Digital Integrated Circuits, Semiconductor Fabrication : Planar Technology, Fabrication of Monolithic, Integrated Circuits, Monolithic Passive and Active Circuit components, Typical IC Low Frequency Amplifier, New Technology Trends. II Zener Diode, Power Diode, Photodiode, Varactor Diode, Light Emitting Diode (LED), Solar Cell, Transistor Register, Piezo-electric Crystals, Diode Lasers, Condition for Laser Action, Optical Gain, Memory Devices: Transistor Register, Random Access Memory, Read Only Memory. V Tunnel Diode, Backward Diode, Unijunction Transistor, p-n-p-n devices, p-n-p-n characteristics Thyrostor, Silicon Controlled Switch, SCS Characteristics, L Addition four Layer Devices. Basic Circuit Principles for NR Switching Circuits: Monostable, Bistable and Astable Operations.
3 Mathematical Physics PHY(C)-101 M. Sc. 1st Year (Sem. 1st) Definition of a linear vector space, Linear independence, basis and dimension, scalar Product, Orthonormal basis, Gram-Schmidt Orthogonalization process, Linear operators, Matrices, Orthogonal,Unitary and Hermitian matrices, Eigenvalues and eigenvectors of matrices, Matrix diagonalization. I Second order linear differential equation with variable coefficients, ordinary point, singular point, series solution around an ordinary point, series solution around a regular singular point; the method of Frobenius, Wronskian and getting a second solution, Solution of Legendre's equation, Solution of Bessel's equation, Solution of Laguarre and Hermite's equations. II Definition of special functions, Generating functions for Bessel function of integral order Jn(x), Recurrence relations, Integral representation; Legendre polynomials Pn (x), Generating functions for Pn(x), Recurrence relations; Hermite Polynomials, Generating functions, Rodrigue's formula for Hermite polynomials; Laguerre polynomials, Generating function and Recurrence relations. V Integral transform, Laplace transform, some simple properties of Laplace transforms such as first and second shifting property, Inverse Laplace Transform by partial fractions method, Laplace transform of derivatives, Laplace Transform of integrals, Fourier series, Evaluation of coefficients of Fourier series Cosine and Sine series, Fourier Transforms, Fourier sine Transforms, Fourier cosine Transforms.
4 Quantum Mechanics-I PHY(C)-103 M. Sc. 1st Year (Sem. 1st) States and operators; Representation of States and dynamical variables; Linear vector space; Bra Ket notation, Linear operators; Orthonormal set of vectors, Completeness relation; Hermitian operators, their eigenvalues and eigenvectors, The fundamental commutation relation; Commutation rule and the uncertainty relation; Simultaneous eigenstates of commuting operators; The unitary transformation; Dirac delta function; Relation between kets and wave functions; Matrix representation of operators; Solution of linear harmonic oscillator problem by operator methods. I Angular momentum operators and their representation in spherical polar coordinates; Eigenvalues and eigenvectors of L2, spherical harmonics; Commutation relations among Lx Ly Lz ; Rotational symmetry and conservation of angular momentum; Eigenvalues of J2 and Jz and their matrix representation; Pauli spin matrices; Addition of angular momentum. II The three dimensional harmonic oscillator in both cartesian and spherical polar coordinates, eigenvalues eigenfunctions and the degeneracy of the states; Solution of the hydrogen atom problem, the eigenvalues eigenfunctions and the degeneracy. V Time independent perturbation theory; Non degenerate case, the energies and wave functions in first order the energy in second order; Anharmonic perturbations of the form x3 and x4 ; Degenerate perturbation theory; Stark effect of the first excited state of hydrogen.
5 Atomic & Molecular Physics PHY(C)-203 M. Sc. 1st Year (Sem. 2nd) One Electron systems and Pauli principle. Quantum states of one electron atoms, atomic orbitals, Hydrogen spectrum, Pauli principle, spectra of alkali elements, spin orbit interaction and fine structure in alkali spectra. Spectra of two electron systems, equivalent and non equivalent electrons. I The influence of external fields, Two electron system Hyperfine structure and Line broadening:normal and anomalous Zeeman effect, Paschen Back effect, Stark effect, Two electron systems, interaction energy in LS and jj coupling, Hyperfine structure (magnetic and electric, only qualitative). II Diatomic molecules and their rotational spectra : Types of molecules, Diatomic linear symmetric top, asymmetric top and spherical top molecules, Rotational spectra of diatomic molecules as a rigid rotator, energy levels and spectra of non-rigid rotor, intensity of rotational lines. V Vibrational and Rotational Vibration spectra of Diatomic molecules : Vibrational energy of diatomic molecule, Diatomic molecules as a simple harmonic oscillator, Energy levels and spectrum, Morse potential energy curve, Molecules as vibrating rotator, vibration spectrum of diatomic molecules, PQR Branches.
6 Physics of Laser & Laser Application PHY(C)-205 M. Sc. 1st Year (Sem. 2nd) Laser characteristics : Spontaneous and Stimulated Emission, Absorption, Laser Idea, Pumping Schemes, Properties of Laser Beams : Monochromativity, Coherence, Directionality, Brightness, Radiation Trapping Superradiance, Superfluorescence, Amplified Spontaneous Emission, Non-radiative delay. I Pumping process: Optical pumping and pumping efficiency, Electrical pumping and pumping efficiency. Passive Optical Resonators, Rate Equations, Four-level Laser, Three-level Laser, Methods of Q- switching : Electro optical shutter, mechanical shutter, Acousto - optic Q-switches, Mode locking. II Ruby Laser, Nd-Yag Laser, N2 Laser, Dye-Laser, Semiconductor Laser. V Multiphoton photo-electric effects, Two-photon, Three-photon and Multiphoton Processes Raman Scattering,Stimulated Raman Effect. Introduction to Applications of Lasers : Physics, Chemistry, Biology, Medicine, Material working,optical communication, Thermonuclear Fusion, Holography, Military etc.
7 Quantum Mechanics-II PHY(C)-202 M. Sc. 1st Year (Sem. 2nd) Ground state of Helium by both variational and perturbation methods; The hydrogen molecule; WKB approximation; Time dependent perturbation theory; Constant perturbation; Harmonic perturbation; Fermi's golden rule; Adiabatic and sudden approximation. I Transition probability for absorption and induced emission ; Electric dipole transition and selection rules; Magnetic dipole transitions; Forbidden transitions; Higher order transitions; Einstein's coefficients. II Laboratory and C.M. reference frames; scattering amplitude; Differential scattering cross section and total scattering cross section; The optical theorem; Scattering by spherically symmetric potentials; Partial waves and phase shifts; Scattering by a perfectly rigid sphere and by square well poetential; Complex potential and absorption; The Born approximation. V The principle of indistinguishibility; Symmetric and antisymmetric wave functions; Spin and statistics of identical particles; The Slatter determinant; The Pauli exclusion principle; Spin states of a two electron system; States of the helium atom; Collision of identical particles.
8 Statistical Mechanics PHY(C)-201 M. Sc. 1st Year (Sem. 2nd) Phase space, Ensembles, Liouville theorem, conservation of extension, Equation of motion, Equal a priori probability, Statistical equilibrium, Microcanonical ensemble, Quantization of phase space, classical limit, symmetry of wave functions effect of symmetry on counting various distributions using micro canonical ensemble. I Entropy of an ideal gas, Gibbs paradox, Sackur-Tetrode equation, Entropy of a system in contact with a reservoir, Ideal gas in a canonical ensemble, Grand canonical ensemble, Ideal gas in Grand Canonical ensemble, Comparison of various ensembles.quantum distribution using other ensembles. II Transition from classical statistical mechanics to quantum statistical mechanics, Indistinguishability and quantum statistics, identical particles and symmetry require ments, Bose Einstein statistics, Fermi Dirac statistics, Maxwell Boltzmann statistics. Bose Einstein Condensation, Thermal properties of B.E. gas, liquid Helium, Energy and pressure of F-D gas, Electrons in metals, Thermionic Emission. V Cluster expansion for a classical gas, virial equation of state, Van der Waals gas, Phase transition of second kind. Ising Model, Bragg Williams Approximation,Fowler Guggenheim Approximation, Ising Model in one and two dimensions, fluctuations in ensembles, Energy fluctuation in quantum statistics, Concentration fluctuation in quantum statistics, One dimensional random walk, Brownian motion.
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